CN111137803A

CN111137803A - Lifting body for frame splitting machine

Info

Publication number: CN111137803A
Application number: CN202010034710.1A
Authority: CN
Inventors: 金耀
Original assignee: Shengzhou Mosang High Tech Co Ltd
Current assignee: Shengzhou Mosang High Tech Co Ltd
Priority date: 2020-01-14
Filing date: 2020-01-14
Publication date: 2020-05-12

Abstract

The invention discloses a lifting body for a frame splitting machine, which comprises a frame, an upper supporting claw mechanism and a lower supporting claw mechanism, wherein the upper supporting claw mechanism is positioned at the upper part of the frame, and the lower supporting claw mechanism is positioned below the frame. The overall structural design of the invention is ingenious and reasonable, the cultivation frame pile can be lifted up integrally through the combined action of the upper supporting claw mechanism and the lower supporting claw mechanism, the gradual separation between the lower cultivation frame pile and the upper cultivation frame pile is realized, the assembly line operation of cocoon picking of the cultivation frames is more convenient, the whole operation is more automatic, the labor intensity of workers is effectively reduced, the lower supporting claw mechanism plays a main supporting role, the upper supporting claw mechanism plays an auxiliary supporting role, the whole cultivation frame pile is more stable in the lifting process, the cultivation frame pile is prevented from being supported and lifted only by the bottom, the upper part of the cultivation frame pile is easy to shake and topple, the accident rate in the operation process is effectively reduced, and the operation process is safer and more reliable.

Description

Lifting body for frame splitting machine

Technical Field

The invention belongs to the technical field of insect breeding, and particularly relates to a lifting body for a frame splitting machine.

Background

Silkworm breeding is an important skill created by the ancient Chinese workers, and silkworms are the main raw material source of silk and play an important role in human economic life and cultural history. As the demand for silk increases, many enterprises are trying to breed silkworms in factories.

In the traditional silkworm breeding industry, cocoons are collected manually, the labor intensity of silkworm farmers is high, and the rheumatism and toxic gas released by the new cocoons fumigate people, so that two eyes of people are swollen and lacrimate, and fingers are stiff. After cocoons are formed on the silkworms, because the cultivation frames are stacked, the ripe silkworms in the lower cultivation frame can adhere cocoon filaments to the bottom of the upper cultivation frame in the cocooning process, so that the difficulty of tray detachment is increased due to adhesion when the trays of the cultivation frames are detached, and the actual cocoon picking operation is inconvenient.

Disclosure of Invention

The invention aims to provide a lifting body for a frame splitting machine, which is ingenious and reasonable in overall structural design, can integrally lift a culture frame pile through the combined action of an upper supporting claw mechanism and a lower supporting claw mechanism, realizes gradual separation between a lower culture frame pile and an upper culture frame pile, is more convenient to disassemble a tray of the culture frame pile, realizes the pipeline operation of cocoon picking of the culture frame, is more automatic in the whole operation, and effectively reduces the labor intensity of workers.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a framework is lifting body for split machine which characterized in that: the device comprises a frame, an upper supporting claw mechanism and a lower supporting claw mechanism, wherein the upper supporting claw mechanism is positioned at the upper part of the frame, and the lower supporting claw mechanism is positioned below the frame.

Further, the top of frame is provided with the upper bracket, the bottom of frame is provided with the undersetting, be provided with linear guide on the left end face of frame, the structural strength of whole frame both can have been increased in the design of upper bracket and undersetting, be convenient for again the installation between frame and the chain mechanism, linear guide's design makes reciprocating more stable of whole elevating body, this elevating body adopts chain mechanism to realize whole adjustment of height from top to bottom, and chain mechanism in use, certain rocking can appear in the chain operation, linear guide can reduce the mechanical vibration range of elevating body in reciprocating, make whole lifting operation more smooth, steady.

Furthermore, the upper supporting claw mechanism comprises a first air cylinder, an upper pushing plate and an upper supporting claw, the first air cylinder is fixed with the frame bolt through an air cylinder base plate, a piston rod of the first air cylinder is connected with the upper pushing plate, the upper supporting claw is of an L-shaped structure, a first positioning hole is formed in the vertical end face of the upper supporting claw, the upper supporting claw is fixed with the upper pushing plate through the first positioning hole, at least two groups of upper convex tooth groups are uniformly arranged on the horizontal end face of the upper supporting claw, the overall structure design is reasonable, the first air cylinder drives the upper pushing plate to move, the upper pushing plate drives the upper supporting claw to horizontally move until the upper supporting claw moves to the culture frame stacking position, the upper supporting claw and the culture frame can be inserted through the upper convex tooth groups, the support and lifting of the culture frame by the upper supporting claw are realized, the design of the at least two groups of upper convex tooth groups can ensure the supporting point between the upper supporting claw and the culture frame, and the culture frame can be more, the design of the first positioning hole can facilitate the installation and fixation between the upper supporting claw and the upper push plate, and the strength of the connecting structure between the upper supporting claw and the upper push plate is ensured.

Further, go up the dogtooth group and include two last dogtooth portions, form the slot between two last dogtooth portions, go up the dogtooth group and go up the support claw and be the integrated into one piece structure, design benefit, form the slot between two last dogtooth portions, the formation of going up the slot makes last dogtooth portion insert when breeding the below of frame, can avoid breeding the enhancement strip on the frame outer wall, guarantee that last dogtooth portion can insert smoothly, the last support claw can lift up breeding the whole support of frame, and go up the dogtooth group and go up the design that the support claw is the integrated into one piece structure, both can ensure the structural strength of whole last support claw, the actual machine-shaping of being convenient for again.

Further, the lower supporting claw mechanism comprises a second cylinder, a lower push plate and a lower supporting claw, the second cylinder is fixed with the frame bolt through a cylinder backing plate, a piston rod of the second cylinder is connected with the lower push plate, the lower supporting claw is of a Z-shaped structure, a second positioning hole is formed in the top surface of the lower supporting claw, the top of the lower supporting claw is fixed with a lower push plate screw rod through the second positioning hole, a positioning groove is formed in the vertical end surface of the lower supporting claw, the vertical section of the lower supporting claw is fixed with the lower push plate screw rod through the positioning groove, side rib plates are arranged on two sides of the vertical section of the lower supporting claw, the side rib plates and the lower supporting claw are of an integrally formed structure, at least two groups of lower convex tooth groups are arranged on the bottom end surface of the lower supporting claw, the structural design is compact and reasonable, the second cylinder pushes the lower push plate to move, the lower supporting claw horizontally until, and can realize down the support claw and breed the grafting between the frame through protruding tooth group down, the support of support claw to breeding the frame is lifted to the realization down, the strong point between support claw and the breeding frame can be guaranteed down in the design of at least two sets of protruding tooth groups down, make the support that breeds the frame and receive more balanced, breed the removal of frame more steady, the design of second locating hole and constant head tank can be followed two faces and realized down the support claw and put down being connected between the apron, effectively guarantee joint strength between the two, make the structure of lower support claw mechanism firm more reliable, the structural strength of support claw can further be increased down in the design of side floor, make the bearing capacity of lower support claw better, more non-deformable.

Further, protruding tooth group includes two protruding tooth portions down, form slot down between two protruding tooth portions down, slot and last slot phase-match down, protruding tooth group is the integrated into one piece structure with lower support claw down, design benefit, the formation of slot makes protruding tooth portion insert when breeding the below of frame down, can avoid breeding the enhancement strip on the frame outer wall, guarantee protruding tooth portion can insert smoothly down, lower support claw can lift breed the frame support, and protruding tooth group is the design of integrated into one piece structure with lower support claw down, both can ensure the structural strength of whole lower support claw, the actual machine-shaping of being convenient for again.

Further, both sides of the first cylinder and both sides of the second cylinder are provided with linear bearing boxes, guide shafts of the linear bearing boxes positioned on both sides of the first cylinder are fixed with the upper push plate screws, guide shafts of the linear bearing boxes positioned on both sides of the second cylinder are fixed with the lower push plate screws, the linear bearing boxes can be designed to guide the movement of the first cylinder and the second cylinder, so that the horizontal movement of a piston rod of the first cylinder and a piston rod of the second cylinder is more stable, the linearity of movement of the upper supporting claw and the lower supporting claw is indirectly ensured, the subsequent upper supporting claw and the lower supporting claw are convenient to support and lift the cultivation frame, and meanwhile, the guide shafts can play a supporting role in cooperation with the piston rods for the upper supporting claw and the lower supporting claw, the supporting pressure of the piston rods is reduced, and the lifting operation of the upper supporting claw and the lower supporting claw on the cultivation frame is more convenient.

Further, the upper convex tooth group comprises an upper convex tooth layer and a lower convex tooth layer, the upper convex tooth layer and the lower convex tooth layer are connected through an upper connecting block, the upper connecting block and the upper convex tooth layer are of an integrally formed structure, an upper clamping groove is formed between the upper connecting block and the upper convex tooth layer and between the upper connecting block and the lower convex tooth layer, the upper clamping groove is matched with the upper supporting claw, the horizontal end of the upper supporting claw is clamped in the upper clamping groove, the upper convex tooth layer and the lower convex tooth layer are respectively provided with two upper convex tooth parts, an upper slot is formed between the two upper convex tooth parts, the upper convex tooth layers and the lower convex tooth layers are respectively provided with an upper mounting hole, the horizontal end surface of the upper supporting claw is provided with an upper positioning groove, the upper mounting holes are matched with the upper positioning grooves, the upper convex tooth group is fixed with the upper supporting claw through the upper mounting holes and the upper positioning grooves, the structural design is reasonable, the overall, make again to form draw-in groove on the epirelief tooth group, it is spacing to be convenient for preliminary joint between epirelief tooth group and the last support claw, and go up the connecting block and can guarantee the structural strength of whole epirelief tooth group with the design of upper and lower two-layer epirelief tooth layer for integrated into one piece structure, the machine-shaping of also being convenient for reality, the design of rethread mounting hole and last constant head tank, cooperate with the bolt, realize further installation location between epirelief tooth group and the last support claw, effectively guarantee joint strength between the two, adopt the bolt fastening between epirelief tooth group and the last support claw, realize epirelief tooth group and the dismantlement of last support claw and be connected, thereby can carry out the increase or the reduction of epirelief tooth group quantity according to actual demand, make the lift of breeding the frame more convenient, and the detachable design of epirelief tooth group, can regularly change and maintain epirelief tooth group.

Further, the lower convex tooth group comprises an upper lower convex tooth layer and a lower convex tooth layer, the upper lower convex tooth layer and the lower tooth layer are connected through a lower connecting block, the lower connecting block and the upper lower convex tooth layer and the lower convex tooth layer are of an integrally formed structure, a lower clamping groove is formed between the lower connecting block and the upper lower convex tooth layer and between the lower connecting block and the upper lower convex tooth layer, the lower clamping groove is matched with the lower supporting claw, the bottom end of the lower supporting claw is clamped in the lower clamping groove, the upper lower convex tooth layer and the lower convex tooth layer are respectively provided with two lower convex tooth parts, a lower slot is formed between the two lower convex tooth parts, the upper lower convex tooth layer and the lower convex tooth layer are respectively provided with a lower mounting hole, the horizontal end surface of the lower supporting claw is provided with a lower positioning groove, the lower mounting holes are matched with the lower positioning grooves, the lower convex tooth groups are fixed with the lower supporting claw through the lower mounting holes, make again down the protruding tooth group go up and form draw-in groove down, be convenient for down the protruding tooth group and hold in the palm the preliminary joint between the claw spacing down, and go up the connecting block and can guarantee the structural strength of whole protruding tooth group down with the design of upper and lower two-layer protruding tooth layer for integrated into one piece structure down, the machine-shaping of also being convenient for reality, the design of mounting hole and lower constant head tank under the rethread, cooperate with the bolt, realize the further installation location between protruding tooth group and the lower claw of holding in the palm down, effectively guarantee joint strength between the two, adopt the bolt fastening down between protruding tooth group and the lower claw, realize protruding tooth group and the dismantlement of holding in the palm the claw down and be connected, thereby can carry out the increase or the reduction of protruding tooth group quantity down according to the demand of reality, make the lift of breeding the frame more convenient, and protruding tooth group detachable design down.

Furthermore, a shock pad is arranged between the cylinder backing plate and the frame, the shock pad comprises an upper backing plate and a lower backing plate which are arranged in a vertically symmetrical manner, clamping columns are evenly arranged on the bottom surface of the upper backing plate, sleeves are evenly arranged on the top surface of the lower backing plate, the clamping columns are matched with the sleeves, the clamping columns are clamped in the sleeves in a clamped manner, spring columns are sleeved on the outer side walls of the sleeves, connecting pieces are arranged between the upper backing plate and the lower backing plate, the connecting pieces are fixed with the upper backing plate and the lower backing plate through screws, the shock pad can act together with the cylinder backing plate, so that the installation between the first cylinder, the second cylinder and the frame is more stable, meanwhile, the shock pad can play a shock absorption protection role, the mechanical vibration of the first cylinder and the second cylinder is reduced, the actions of the first cylinder and the second cylinder are more stable and reliable, the accurate positioning between the upper supporting claw and the lower supporting claw and the breeding frame, It is more convenient to hold in the palm claw and the grafting of breeding the frame down, and through the design to the shock pad specific structure, divide into upper padding plate and lower bolster with the shock pad, realize the preliminary joint between upper padding plate and the lower bolster through calorie post and sleeve, the sleeve is also convenient for the installation of spring post and is cup jointed simultaneously, again through the upper padding plate, the lower bolster is spacing to the upper and lower both ends of spring post, it is fixed with the installation between upper padding plate and the lower bolster through the connecting piece at last, effectively guarantee the overall structure stability of shock pad, and also be convenient for regularly change the spring post, guarantee the shock pad's shock attenuation effect.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

the lower supporting claw mechanism plays a main supporting role, the lower supporting claw is inserted into the second cultivation frame at the bottom of the cultivation frame pile through the lower convex tooth group, then the upper supporting claw is inserted into the lower part of the cultivation frame at the corresponding height through the upper convex tooth group and plays a role together with the lower supporting claw, under the driving of the chain mechanism, the chain mechanism drives the adjustment of the whole height of the frame body, so that the cultivation frame pile is integrally lifted, the separation between the bottommost cultivation frame and the cultivation frame pile is realized, the supporting pressure born by the lower supporting claw mechanism can be effectively reduced through the upper supporting claw mechanism, the upper supporting claw performs auxiliary supporting on the upper part of the cultivation frame pile, the whole cultivation frame pile is more stable in the lifting process, the cultivation frame pile is prevented from being supported and lifted only by the bottom, the upper part of the cultivation frame pile is easy to shake and topple, and the accident rate in the operation process is effectively reduced, the operation process is safer and more reliable.

In the invention, because the lower supporting claw plays a main lifting role and bears larger supporting pressure, in the design of the upper supporting claw and the lower supporting claw, the upper supporting claw adopts an L-shaped structure, the lower supporting claw adopts a Z-shaped structure, the ingenious design of the Z-shaped structure can realize the installation and fixation between the lower supporting claw and the lower push plate from two surfaces, the supporting pressure which can be borne by the lower supporting claw is effectively improved, so that the lower supporting claw is not easy to deform, meanwhile, a side rib plate is additionally arranged on the lower supporting claw, the self structural strength of the lower supporting claw is further increased, and the inserting support between the upper supporting claw and the lower supporting claw and a culture frame can be realized through the ingenious design of the upper convex tooth group and the lower convex tooth group according to the appearance design of the culture frame, and the end surfaces of the upper inserting groove and the lower inserting groove are flush with the horizontal end surface of the upper supporting claw and the bottom end surface of the lower inserting groove when the upper inserting groove and the lower inserting groove are designed, when guaranteeing that the last epirelief tooth portion of the upper bracket claw inserts breed frame below, the terminal surface of the upper bracket claw also just in time supports tightly the laminating with the side of breeding the frame, and when the last epirelief tooth portion of lower bracket claw inserted breed frame below, the terminal surface of lower bracket claw also just in time supports tightly the laminating with the side of breeding the frame, guarantees the contact surface of upper bracket claw, lower bracket claw and breed frame for the lift of breeding the frame heap is more steady reliable.

According to the invention, the linear bearing box can be designed to guide the movement of the first cylinder and the second cylinder, so that the horizontal movement of the piston rod of the first cylinder and the piston rod of the second cylinder is more stable, the linearity of the movement of the upper supporting claw and the lower supporting claw is indirectly ensured, the subsequent supporting and lifting of the upper supporting claw and the lower supporting claw on the culture frame are convenient, meanwhile, the guide shaft can play a supporting role in supporting the upper supporting claw and the lower supporting claw under the combined action of the guide shaft and the piston rod, the supporting pressure of the piston rod is reduced, and the lifting operation of the upper supporting claw and the lower supporting claw on the culture frame is more convenient.

The automatic cocoon picking machine has the advantages that the overall structural design is ingenious and reasonable, the culture frame piles can be integrally lifted through the combined action of the upper supporting claw mechanism and the lower supporting claw mechanism, the gradual separation between the lower culture frame piles and the upper culture frame piles is realized, the assembly line operation of cocoon picking of the culture frames is more convenient, the whole operation is more automatic, and the manual labor intensity is effectively reduced.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram according to a first embodiment of the present invention;

fig. 2 is a schematic view of an installation structure of an upper supporting claw mechanism and a lower supporting claw mechanism on a frame according to a first embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating a position distribution structure of a linear bearing housing and a second cylinder according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a lifting claw according to a first embodiment of the present invention;

FIG. 5 is a schematic structural view of a lower holding claw according to a first embodiment of the present invention;

FIG. 6 is a schematic structural view of a second holding-up claw according to the embodiment of the present invention;

FIG. 7 is a schematic structural view of a lower holding claw according to a second embodiment of the present invention;

FIG. 8 is a schematic view of a mounting structure of a cushion on a frame according to a second embodiment of the present invention;

FIG. 9 is a schematic structural view of a cushion according to a second embodiment of the present invention;

FIG. 10 is a schematic structural view of a lower cushion plate according to a second embodiment of the present invention;

fig. 11 is a schematic structural view of an upper cushion plate according to a second embodiment of the present invention.

In the figure: 1-a frame; 2-a supporting claw mechanism; 3-lower supporting claw structure; 4, mounting a support; 5-a lower support; 6-linear guide rail; 7-a first cylinder; 8-pushing the plate upwards; 9-lifting the claw; 10-cylinder liner plate; 11-a first positioning hole; 12-upper set of lobes; 13-upper convex tooth part; 14-upper slot; 15-a second cylinder; 16-a lower push plate; 17-lower supporting claw; 18-a second locating hole; 19-a positioning groove; 20-side ribs; 21-lower convex teeth group; 22-lower convex teeth; 23-lower slot; 24-a linear bearing housing; 25-a guide shaft; 26-upper convex tooth layer; 27-mounting a connecting block; 28-upper card slot; 29-upper mounting holes; 30-upper positioning groove; 31-lower lobe layer; 32-lower connecting block; 33-lower card slot; 34-lower mounting holes; 35-lower positioning groove; 36-a shock pad; 37-upper backing plate; 38-lower backing plate; 39-clamp column; 40-a sleeve; 41-spring post; 42-connecting piece.

Detailed Description

As shown in fig. 1 to 5, a first embodiment of the present invention specifically includes a frame 1, an upper supporting claw mechanism 2, and a lower supporting claw mechanism 3, where the upper supporting claw mechanism 2 is located at an upper portion of the frame 1, and the lower supporting claw mechanism 3 is located below the frame 1. The top of frame 1 is provided with upper bracket 4, the bottom of frame 1 is provided with undersetting 5, be provided with linear guide 6 on the left end face of frame 1, upper bracket 4 and undersetting 5's design both can increase whole frame 1's structural strength, be convenient for installation between frame 1 and the chain mechanism again, linear guide 6's design makes reciprocating more stable of whole elevating body, this elevating body adopts chain mechanism to realize whole adjustment of height from top to bottom, and chain mechanism in use, certain rocking can appear in the chain operation, linear guide 6 can reduce the mechanical vibration range in the elevating body reciprocates, make whole smooth more of lifting operation, it is steady.

The upper supporting claw mechanism 2 comprises a first air cylinder 7, an upper push plate 8 and an upper supporting claw 9, the first air cylinder 7 is fixed with the frame 1 through an air cylinder base plate 10 by bolts, a piston rod of the first air cylinder 7 is connected with the upper push plate 8, the upper supporting claw 9 is of an L-shaped structure, a first positioning hole 11 is formed in the vertical end face of the upper supporting claw 9, the upper supporting claw 9 is fixed with the upper push plate 8 through the first positioning hole 11 by screws, at least two groups of upper convex tooth groups 12 are uniformly arranged on the horizontal end face of the upper supporting claw 9, the overall structure is reasonable in design, the first air cylinder 7 drives the upper push plate 8 to move, the upper push plate 8 drives the upper supporting claw 9 to horizontally move until the upper supporting claw 9 moves to the culture frame pile, the upper supporting claw 9 can be inserted into the culture frame pile through the upper convex tooth groups 12, the upper supporting claw 9 can support and lift the culture frame, and the at least two groups of upper convex tooth groups 12 can ensure the supporting point between the upper supporting claw 9 and the culture, make breed frame pile more steady in-process, the design of first locating hole 11 can be convenient for the installation between upper bracket claw 9 and the push up plate 8 fixed, guarantees the connection structure intensity between the two.

Go up the cam group 12 and include two last cam teeth portion 13, slot 14 is formed between two last cam teeth portion 13, last cam teeth group 12 and last support claw 9 are the integrated into one piece structure, design benefit, form slot 14 between two last cam teeth portion 13, the formation of going up slot 14 makes last cam teeth portion 13 insert when breeding the below of frame, can avoid breeding the reinforcing bar on the frame outer wall, guarantee that last cam teeth portion 13 can insert smoothly, go up support claw 9 and can lift the whole support of breeding the frame, and go up cam teeth group 12 and the design of last support claw 9 as the integrated into one piece structure, both can ensure the structural strength of whole last support claw 9, the machine-shaping of being convenient for reality again.

The lower supporting claw mechanism 3 comprises a second cylinder 15, a lower pushing plate 16 and a lower supporting claw 17, the second cylinder 15 is fixed with the frame 1 through a cylinder base plate 10 by bolts, a piston rod of the second cylinder 15 is connected with the lower pushing plate 16, the lower supporting claw 17 is in a Z-shaped structure, a second positioning hole 18 is arranged on the top surface of the lower supporting claw 17, the top of the lower supporting claw 17 is fixed with a screw rod of the lower pushing plate 16 through the second positioning hole 18, a positioning groove 19 is arranged on the vertical end surface of the lower supporting claw 17, the vertical section of the lower supporting claw 17 is fixed with the lower pushing plate 16 through the positioning groove 19 by screws, side rib plates 20 are arranged on two sides of the vertical section of the lower supporting claw 17, the side rib plates 20 and the lower supporting claw 17 are in an integrally formed structure, at least two groups of lower convex teeth 21 are arranged on the bottom end surface of the lower supporting claw 17, the structure is compact and reasonable in design, the second cylinder 15 pushes, until the lower supporting claw 17 moves to the position where the cultivation frame is piled, the lower supporting claw 17 can be inserted into the cultivation frame through the lower convex tooth group 21, the lower supporting claw 17 can lift and support the cultivation frame, the supporting points between the lower supporting claw 17 and the cultivation frame can be guaranteed through the design of at least two lower convex tooth groups 21, the supporting and supporting force borne by the cultivation frame is more balanced, the cultivation frame can move more stably, the lower supporting claw 17 and the lower push plate 16 can be connected through two surfaces through the design of the second positioning hole 18 and the positioning groove 19, the connecting strength between the lower supporting claw 17 and the lower push plate 16 is effectively guaranteed, the structure of the lower supporting claw mechanism 3 is more firm and reliable, the structural strength of the lower supporting claw 17 can be further improved through the design of the side rib plate 20, the bearing force of the lower supporting claw 17 is better, and the lower supporting claw 17 is not prone to deformation.

Lower protruding tooth group 21 includes two lower protruding tooth portions 22, form slot 23 down between two lower protruding tooth portions 22, slot 23 and upper slot 14 phase-match down, lower protruding tooth group 21 is the integrated into one piece structure with lower support claw 17, design benefit, the formation of slot 23 makes lower protruding tooth portion 22 insert when breeding the below of frame down, can avoid breeding the enhancement strip on the frame outer wall, guarantee that lower protruding tooth portion 22 can insert smoothly, lower support claw 17 can lift breed the frame support, and lower protruding tooth group 21 is the integrated into one piece structure with lower support claw 17's design, both can ensure whole lower support claw 17's structural strength, the machine-shaping of being convenient for reality again.

The two sides of the first cylinder 7 and the two sides of the second cylinder 15 are both provided with linear bearing boxes 24, guide shafts 25 of the linear bearing boxes 24 positioned on the two sides of the first cylinder 7 are fixed with the upper push plate 8 through screws, the guide shafts 25 of the linear bearing boxes 24 positioned on the two sides of the second cylinder 15 are fixed with the lower push plate 16 through screws, the linear bearing boxes 24 can guide the movement of the first cylinder 7 and the second cylinder 15, the horizontal movement of the piston rod of the first cylinder 7 and the piston rod of the second cylinder 15 is more stable, the moving linearity of the upper supporting claw 9 and the lower supporting claw 17 is indirectly ensured, the subsequent supporting and lifting of the culture frame by the upper supporting claw 9 and the lower supporting claw 17 are facilitated, meanwhile, the guide shaft 25 can play a supporting role in supporting the upper supporting claw 9 and the lower supporting claw 17 under the combined action of the piston rod, so that the supporting pressure of the piston rod is reduced, and the lifting operation of the upper supporting claw 9 and the lower supporting claw 17 on the culture frame is facilitated.

As shown in fig. 6 to 11, the second embodiment of the present invention specifically includes a frame 1, an upper supporting claw mechanism 2, and a lower supporting claw mechanism 3, where the upper supporting claw mechanism 2 is located at an upper portion of the frame 1, and the lower supporting claw mechanism 3 is located below the frame 1. The top of frame 1 is provided with upper bracket 4, the bottom of frame 1 is provided with undersetting 5, be provided with linear guide 6 on the left end face of frame 1, upper bracket 4 and undersetting 5's design both can increase whole frame 1's structural strength, be convenient for installation between frame 1 and the chain mechanism again, linear guide 6's design makes reciprocating more stable of whole elevating body, this elevating body adopts chain mechanism to realize whole adjustment of height from top to bottom, and chain mechanism in use, certain rocking can appear in the chain operation, linear guide 6 can reduce the mechanical vibration range in the elevating body reciprocates, make whole smooth more of lifting operation, it is steady.

The upper convex tooth group 12 comprises an upper convex tooth layer 26 and a lower convex tooth layer 26, the upper convex tooth layer 26 and the lower convex tooth layer are connected through an upper connecting block 27, the upper connecting block 27 and the upper convex tooth layer 26 are of an integrally formed structure, an upper clamping groove 28 is formed between the upper connecting block 27 and the upper convex tooth layer 26, the upper clamping groove 28 is matched with the upper supporting claw 9, the horizontal end of the upper supporting claw 9 is clamped in the upper clamping groove 28, the upper convex tooth layer 26 and the lower convex tooth layer 26 are respectively provided with two upper convex tooth parts 13, an upper slot 14 is formed between the two upper convex tooth parts 13, the upper convex tooth layer 26 and the lower convex tooth layer are respectively provided with an upper mounting hole 29, the horizontal end face of the upper supporting claw 9 is provided with an upper positioning groove 30, the upper mounting hole 29 is matched with the upper positioning groove 30, the upper convex tooth group 12 is bolted with the upper supporting claw 9 through the upper mounting hole 29 and the upper positioning groove 30, the structural, the upper connecting block 27 is designed to realize the connection between the upper convex tooth layer 26 and the lower convex tooth layer 26, and the upper clamping groove 28 is formed on the upper convex tooth group 12, so that the initial clamping limit between the upper convex tooth group 12 and the upper supporting claw 9 is facilitated, the design that the upper connecting block 27 and the upper convex tooth layer 26 are of an integrated structure can ensure the structural strength of the whole upper convex tooth group 12 and is also convenient for actual processing and forming, and then the upper connecting block is matched with a bolt through the design of the upper mounting hole 29 and the upper positioning groove 30 to realize the further mounting and positioning between the upper convex tooth group 12 and the upper supporting claw 9, so that the connecting strength between the upper convex tooth group 12 and the upper supporting claw 9 is effectively ensured, the upper convex tooth group 12 and the upper supporting claw 9 are fixed by the bolt, the detachable connection between the upper convex tooth group 12 and the upper supporting claw 9 is realized, thereby the number of the upper convex tooth group 12 can be increased or reduced according, and the upper cam set 12 is designed to be detachable, so that the upper cam set 12 can be replaced and maintained periodically.

The lower convex tooth group 21 comprises an upper convex tooth layer 31 and a lower convex tooth layer 31, the upper convex tooth layer 31 and the lower convex tooth layer 31 are connected through a lower connecting block 32, the lower connecting block 32 and the upper convex tooth layer 31 and the lower convex tooth layer 31 are of an integrally formed structure, a lower clamping groove 33 is formed between the lower connecting block 32 and the upper convex tooth layer 31 and the lower convex tooth layer 31, the lower clamping groove 33 is matched with the lower supporting claw 17, the bottom end of the lower supporting claw 17 is clamped in the lower clamping groove 33, the upper convex tooth layer 31 and the lower convex tooth layer 31 are both provided with two lower convex tooth parts 22, a lower slot 23 is formed between the two lower convex tooth parts 22, the upper convex tooth layer 31 and the lower convex tooth layer 31 are both provided with lower mounting holes 34, the horizontal end surface of the lower supporting claw 17 is provided with a lower positioning groove 35, the lower mounting holes 34 are matched with the lower positioning grooves 35, the lower convex tooth group 21 is bolted with the lower supporting claw 17, the lower connecting block 32 is designed to realize the connection between the upper and lower convex tooth layers 31 and form a lower clamping groove 33 on the lower convex tooth group 21, so as to facilitate the preliminary clamping limit between the lower convex tooth group 21 and the lower supporting claw 17, the upper connecting block 27 is designed to be in an integrated structure with the upper and lower convex tooth layers 31 so as to ensure the structural strength of the whole lower convex tooth group 21 and facilitate the actual processing and forming, and then the lower connecting block is matched with a bolt through the design of the lower mounting hole 34 and the lower positioning groove 35 to realize the further mounting and positioning between the lower convex tooth group 21 and the lower supporting claw 17 and effectively ensure the connection strength between the lower convex tooth group 21 and the lower supporting claw 17, so as to realize the detachable connection between the lower convex tooth group 21 and the lower supporting claw 17, thereby increasing or reducing the number of the lower convex tooth group 21 according to the actual demand and make the lifting of the cultivation frame more convenient, and the lower cam group 21 is designed to be detachable, so that the lower cam group 21 can be replaced and maintained periodically.

The shock absorption pad 36 is arranged between the cylinder cushion plate 10 and the frame 1, the shock absorption pad 36 comprises an upper cushion plate 37 and a lower cushion plate 38 which are arranged in a vertical symmetry manner, clamping columns 39 are evenly arranged on the bottom surface of the upper cushion plate 37, sleeves 40 are evenly arranged on the top surface of the lower cushion plate 38, the clamping columns 39 are matched with the sleeves 40, the clamping columns 39 are clamped in the sleeves 40, spring columns 41 are sleeved on the outer side wall of each sleeve 40, a connecting piece 42 is arranged between the upper cushion plate 37 and the lower cushion plate 38, the connecting piece 42 is fixed with the upper cushion plate 37 and the lower cushion plate 38 through screws, the shock absorption pad 36 can be designed to be used together with the cylinder cushion plate 10, so that the installation between the first cylinder 7 and the second cylinder 15 and the frame 1 is more stable, meanwhile, the shock absorption pad 36 can also play a shock absorption protection role, the mechanical vibration of the first cylinder 7 and the second cylinder 15 is reduced, and the actions of the first, ensure the upper bracket claw 9 and hold in the palm the claw 17 down and breed the accurate location between the frame, make the upper bracket claw 9, it is more convenient to hold in the palm the claw 17 down with the grafting of breeding the frame, and through the design to the concrete structure of shock pad 36, divide into upper padding plate 37 and lower bolster 38 with shock pad 36, realize the preliminary joint between upper padding plate 37 and the lower bolster 38 through calorie post 39 and sleeve 40, sleeve 40 also is convenient for the installation of spring post 41 to cup joint simultaneously, again through upper padding plate 37, lower bolster 38 is spacing to the upper and lower both ends of spring post 41, it is fixed with the installation between upper padding plate 37 and the lower bolster 38 through connecting piece 42 at last, effectively guarantee the overall structure stability of shock pad 36, and also be convenient for regularly change spring post 41, guarantee the shock attenuation effect of shock pad 36.

in the invention, the lower supporting claw mechanism 3 plays a main supporting role, the lower supporting claw 17 is inserted into the second cultivation frame at the bottom of the cultivation frame pile through the lower convex tooth group 21, then the upper supporting claw 9 is inserted into the lower part of the cultivation frame at the corresponding height through the upper convex tooth group 12 and cooperates with the lower supporting claw 17, under the driving of the chain mechanism, the chain mechanism drives the adjustment of the whole height of the frame body, so that the cultivation frame pile is integrally lifted, the separation between the bottommost cultivation frame and the cultivation frame pile is realized, the supporting pressure born by the lower supporting claw mechanism 3 can be effectively reduced through the upper supporting claw mechanism 2, the upper supporting claw 9 carries out auxiliary supporting on the upper part of the cultivation frame pile, the whole cultivation frame pile is more stable in the lifting process, the cultivation frame pile is prevented from being supported and lifted only by the bottom, and the upper part of the cultivation frame pile is easy to shake and topple over, therefore, the accident rate in the operation process is effectively reduced, and the operation process is safer and more reliable.

In the invention, because the lower supporting claw 17 plays a main lifting role and bears larger supporting pressure, in the design of the upper supporting claw 9 and the lower supporting claw 17, the upper supporting claw 9 adopts an L-shaped structure, the lower supporting claw 17 adopts a Z-shaped structure, the ingenious design of the Z-shaped structure can realize the installation and fixation between the lower supporting claw 17 and the lower push plate 16 from two surfaces, the supporting pressure which can be borne by the lower supporting claw 17 is effectively improved, so that the lower supporting claw 17 is not easy to deform, meanwhile, a side rib plate 20 is also added on the lower supporting claw 17, the self structural strength of the lower supporting claw 17 is further increased, and through the ingenious design of the upper convex tooth group 12 and the lower convex tooth group 21, the upper convex tooth group 12 and the lower convex tooth group 21 are designed according to the appearance of the culture frame, the insertion support between the upper supporting claw 9 and the lower supporting claw 17 and the culture frame can be realized, and the end surface of the upper slot 14 and the lower slot 23 is flush with the horizontal end surface of the upper supporting claw 9 when being designed, the terminal surface of slot 23 flushes with the bottom face of holding in the palm the claw 17 down mutually, when guaranteeing that last epirelief tooth portion 13 on the claw 9 of holding in the palm inserts breed frame below, the terminal surface of the claw 9 of holding in the palm also just in time supports tightly with the side of breeding the frame and laminates, when holding in the palm the lower tooth portion 22 on the claw 17 down and inserting breed the frame below, the terminal surface of the claw 17 of holding in the palm also just in time supports tightly with the side of breeding the frame and laminates down, guarantee the claw 9 of holding in the palm, hold in the palm the claw 17 down and the contact surface of breeding the frame for the lift of breeding the frame heap is more steady.

According to the invention, the linear bearing box 24 is designed to guide the movement of the first cylinder 7 and the second cylinder 15, so that the horizontal movement of the piston rod of the first cylinder 7 and the piston rod of the second cylinder 15 is more stable, the linearity of the movement of the upper supporting claw 9 and the lower supporting claw 17 is indirectly ensured, the subsequent supporting and lifting of the upper supporting claw 9 and the lower supporting claw 17 on the culture frame are facilitated, meanwhile, the guide shaft 25 can play a supporting role with the combined action of the piston rod on the upper supporting claw 9 and the lower supporting claw 17, the supporting pressure of the piston rod is reduced, and the lifting operation of the upper supporting claw 9 and the lower supporting claw 17 on the culture frame is facilitated.

The automatic cocoon picking machine has the advantages that the overall structural design is ingenious and reasonable, the culture frame piles can be integrally lifted through the combined action of the upper supporting claw mechanism 2 and the lower supporting claw mechanism 3, the gradual separation between the lower culture frame and the upper culture frame pile is realized, the assembly line operation of cocoon picking of the culture frames is more convenient, the whole operation is more automatic, and the manual labor intensity is effectively reduced.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple variations, equivalent substitutions or modifications based on the present invention to achieve substantially the same technical effects are within the scope of the present invention.

Claims

1. The utility model provides a framework is lifting body for split machine which characterized in that: the device comprises a frame, an upper supporting claw mechanism and a lower supporting claw mechanism, wherein the upper supporting claw mechanism is positioned at the upper part of the frame, and the lower supporting claw mechanism is positioned below the frame.

2. The lifting body for the frame splitter according to claim 1, wherein: the top of frame is provided with the upper bracket, the bottom of frame is provided with the undersetting, be provided with linear guide on the left end face of frame.

3. The lifting body for the frame splitter according to claim 1, wherein: the upper supporting claw mechanism comprises a first air cylinder, an upper pushing plate and an upper supporting claw, the first air cylinder is fixed with the frame bolt through an air cylinder base plate, a piston rod of the first air cylinder is connected with the upper pushing plate, the upper supporting claw is of an L-shaped structure, a first positioning hole is formed in the vertical end face of the upper supporting claw, the upper supporting claw is fixed with the upper pushing plate through the first positioning hole, and at least two groups of upper convex tooth groups are uniformly arranged on the horizontal end face of the upper supporting claw.

4. The lifting body for the frame splitter according to claim 3, wherein: the upper convex tooth group comprises two upper convex tooth parts, an upper slot is formed between the two upper convex tooth parts, and the upper convex tooth group and the upper supporting claw are of an integrally formed structure.

5. The lifting body for the frame splitter according to claim 4, wherein: the lower supporting claw mechanism comprises a second cylinder, a lower push plate and a lower supporting claw, the second cylinder passes through a cylinder base plate and is fixed with a frame bolt, a piston rod of the second cylinder is connected with the lower push plate, the lower supporting claw is of a Z-shaped structure, a second positioning hole is formed in the top surface of the lower supporting claw, the top of the lower supporting claw is fixed with a lower push plate screw rod through the second positioning hole, a positioning groove is formed in the vertical end face of the lower supporting claw, the vertical section of the lower supporting claw is fixed with the lower push plate screw through the positioning groove, side rib plates are arranged on two sides of the vertical section of the lower supporting claw, the side rib plates and the lower supporting claw are of an integrally formed structure, and at least two sets of lower convex tooth groups are arranged on the bottom end face of the lower supporting claw.

6. The lifting body for the frame splitter according to claim 5, wherein: the lower convex tooth group comprises two lower convex tooth parts, a lower slot is formed between the two lower convex tooth parts, the lower slot is matched with the upper slot, and the lower convex tooth group and the lower supporting claw are of an integrally formed structure.

7. The lifting body for the frame splitter according to claim 5, wherein: the two sides of the first cylinder and the two sides of the second cylinder are both provided with linear bearing boxes, guide shafts of the linear bearing boxes on the two sides of the first cylinder are fixed with the upper push plate screws, and guide shafts of the linear bearing boxes on the two sides of the second cylinder are fixed with the lower push plate screws.

8. The lifting body for the frame splitter according to claim 4, wherein: the upper convex tooth group comprises an upper convex tooth layer and a lower convex tooth layer which are connected through an upper connecting block, the upper connecting block and the lower convex tooth layer are of an integrally formed structure, the upper connecting block and the upper convex tooth layer are of an upper layer and a lower layer, an upper clamping groove is formed between the upper convex tooth layer and the lower convex tooth layer, the upper clamping groove is matched with the upper supporting claw, the horizontal end of the upper supporting claw is clamped in the upper clamping groove and is provided with two upper convex tooth portions and two lower convex tooth portions, the upper slot is formed between the upper convex tooth portions and is arranged on the upper convex tooth layer, an upper mounting hole is formed in the horizontal end face of the upper supporting claw, the upper mounting hole is matched with the upper positioning groove, and the upper convex tooth group passes through the upper mounting hole, the upper positioning groove is fixed with the upper supporting claw through bolts.

9. The lifting body for the frame splitter according to claim 6, wherein: the lower protruding tooth group is including upper and lower two-layer lower protruding tooth layer, and upper and lower two-layer be connected through lower connecting block between the lower protruding tooth layer, lower connecting block and upper and lower two-layer protruding tooth layer is the integrated into one piece structure down, lower connecting block and upper and lower two-layer form lower draw-in groove between the lower protruding tooth layer, lower draw-in groove with hold in the palm the claw phase-match down, the bottom joint of holding in the palm the claw is in down in the draw-in groove, upper and lower two-layer all be provided with two on the protruding tooth layer of lower protruding tooth, two form between the lower protruding tooth portion slot down, upper and lower two-layer all be provided with down the mounting hole down on the protruding tooth layer down, be provided with down the constant head tank down on the horizontal terminal surface of holding in the claw down, down the mounting hole with down the constant head tank phase-match.

10. The lifting body for the frame splitter according to claim 5, wherein: the cylinder backing plate with be provided with the shock pad between the frame, the shock pad includes upper padding plate and the lower bolster that the longitudinal symmetry set up, evenly be provided with the card post on the bottom surface of upper padding plate, evenly be provided with the sleeve on the top surface of lower bolster, card post with the sleeve phase-match, card post joint is in the sleeve, the cover is equipped with the spring post on the telescopic lateral wall, the upper padding plate with be provided with the connecting piece between the lower bolster, the connecting piece with the upper padding plate the lower bolster is fixed with the screw.